Effects of a teacher development program on teachers' knowledge and collaborative engagement, and students' achievement in computational thinking concepts

An important educational goal for the next generation is the ability to think computationally. Cultivating K‐12 students' computational thinking (CT) requires the capacity building of teachers through teacher development programs. However, if students' learning outcomes were not assessed,...

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Bibliographic Details
Published in:British journal of educational technology 2023-03, Vol.54 (2), p.489-512
Main Authors: Kong, Siu‐Cheung, Lai, Ming
Format: Article
Language:English
Subjects:
Academic Achievement
Capacity Building
Collaboration
collaborative engagement
computational thinking
Computer science
Computer Science Education
Correlation
Educational Objectives
Elementary Education
Elementary School Students
Elementary Schools
Elementary Secondary Education
Gender Differences
Kindergarten
Knowledge
Learning
Majors (Students)
Modelling
multilevel modelling
Outcomes of Education
Pedagogical Content Knowledge
Problem solving
Professional development
student achievement
Students
Teacher Collaboration
teacher development
Teacher education
Teacher Education Programs
teacher knowledge
Teachers
Teaching
Teaching Experience
Thinking Skills
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Summary:An important educational goal for the next generation is the ability to think computationally. Cultivating K‐12 students' computational thinking (CT) requires the capacity building of teachers through teacher development programs. However, if students' learning outcomes were not assessed, it is not known whether the enhancement of teacher capacity could impact on students' learning. This study aimed to examine how a teacher development program changed teachers' content knowledge and collaborative engagement, which in turn influenced their students' learning achievement. The participants were 81 teachers and 3226 students from primary schools. We employed multi‐level modelling to study the relationships between teacher‐level variables and student achievement assessed by a CT concepts test. The teachers' content knowledge and collaborative engagement were significantly enhanced through the program, which in turn had a significant impact on student achievement. Teachers' years of teaching experience, but not their gender or whether they had majored in computer science, could also affect student achievement. The results indicate that a teacher development program can play a significant role in enhancing the teachers' CT content knowledge and collaborative engagement, which can then have a positive effect on student learning. Practitioner notes What is already known about this topic The cultivation of students' computational thinking (CT) in K‐12 education requires the capacity building of teachers. A teacher development program can improve teachers' knowledge and attitudes related to CT. Whether the enhancement of teacher capacity can in turn affect students' learning achievement in CT is less studied. What this paper adds We found that a teacher development program could significantly enhance teachers' knowledge in CT and their collaborative engagement in the program. Using multilevel modelling, we found further that the enhancement of teachers' knowledge and collaborative engagement could affect students' understanding of CT concepts positively. Teachers' years of teaching experience, but not their gender or whether they had majored in computer science, could also influence student achievement. Implications for practice and/or policy In designing similar teacher development programs for teachers, collaborative engagement opportunities should be provided as it can have a positive impact on student achievement. Although the majority of teachers do not have a b
ISSN:0007-1013
1467-8535
DOI:10.1111/bjet.13256